CN218676508U - Equidirectional folding elastic braided electric lead - Google Patents

Abstract

The utility model provides a syntropy folding elasticity braided wire, concretely relates to scalable prevent stretch-break's elasticity braided wire. The electric lead group is arranged in an S-shaped structure, two S-shaped straight line sections of the electric lead group are a first connecting section and a second connecting section, the connecting woven belt is located between the first connecting section and the second connecting section, the first main elastic rope group and the second main elastic rope group are identical in structure, and the first main elastic rope group and the second main elastic rope group are wound on the S-shaped straight line sections of the electric lead group and are connected with the connecting woven belt in a winding mode. Twine stretch cord after buckling the electric wire, through the mode that stretch cord and electric wire wound woven for the electric wire is spacing by the stretch cord when receiving tensile, and pulling of external force can not cause the direct damage of pulling to the electric wire, the very big improvement in the use the safety in utilization of wire rod, the life of improvement wire rod.

Description

Equidirectional folding elastic braided electric lead

Technical Field

The utility model relates to an electric lead is woven to syntropy folding elasticity, concretely relates to wire rod is woven to scalable anti-snapping elasticity.

Background

The electric wire is the consumptive material commonly used among the daily life, by the wide application on various electrical apparatus, be indispensable wire rod, current electric wire is mostly insulating layer cladding sinle silk structure, and wire rod length is comparatively fixed, the wire rod receives external force and easily destroys the outer layer of insulation when dragging, and then breaks the wire rod, in daily use, especially when short distance uses, after the wire rod is dragged, because the wire rod lacks elasticity, can all drag electrical apparatus and plug and socket simultaneously, probably cause the damage to the plug, and pull down electrical apparatus, cause the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to defect among the prior art or not enough, provide an electric lead is woven to syntropy folding elasticity, twine the stretch cord after buckling the electric wire, through the mode that stretch cord and electric wire wound form were woven for the electric wire is spacing by the stretch cord when receiving tensile, and the pulling of external force can not lead to the fact the direct damage of pulling to the electric wire, very big improvement in the use the safety in utilization of wire rod, improve the life of wire rod.

In order to achieve the above purpose, the utility model adopts the following technical scheme: it contains electric wire group 1, first main elastic cord group 2, second main elastic cord group 3, connect braid over braid 5, electric wire group 1 arranges for the S-shaped structure, two sections S-shaped straight line sections of electric wire group 1 are first linkage segment 6 and second linkage segment 7, it is located between first linkage segment 6 and the second linkage segment 7 to connect braid 5, first main elastic cord group 2, second main elastic cord group 3 structure is the same, first main elastic cord group 2, 3 winding electric wire group 1S-shaped straight line sections of second main elastic cord group are just connected with being connected the winding of braid 5.

The electric lead group 1 comprises a first electric wire 1-1, a second electric wire 1-2, a third electric wire 1-3 and a fourth electric wire 1-4, wherein the first electric wire 1-1, the second electric wire 1-2, the third electric wire 1-3 and the fourth electric wire 1-4 are sequentially arranged, the first electric wire 1-1 and the fourth electric wire 1-4 are outer side wires, and the second electric wire 1-2 and the third electric wire 1-3 are inner side wires.

The first wire 1-1S-shaped bent part penetrates through the second wire 1-2, the third wire 1-3 downwards and then penetrates through the fourth wire 1-4 upwards, the fourth wire 1-4S-shaped bent part penetrates through the first wire 1-1 downwards and penetrates through the second wire 1-2 and the third wire 1-3 upwards, and the first wire 1-1 and the fourth wire 1-4 are overlapped with the second wire 1-2 and the third wire 1-3 in a crossing manner.

The first main elastic rope group 2 comprises a first main elastic rope 2-1 and a second main elastic rope 2-2, the second main elastic rope group 3 comprises a third main elastic rope 3-1 and a fourth main elastic rope 3-2, and the first main elastic rope group 2 and the second main elastic rope group 3 are arranged in sequence of the first main elastic rope 2-1, the third main elastic rope 3-1, the second main elastic rope 2-2 and the fourth main elastic rope 3-2.

The first main elastic rope group 2 firstly passes through the second connecting section 7 from the upper part to the lower part of the first connecting section 6, and the second main elastic rope group 3 passes through the second connecting section 7 from the lower part of the first connecting section 6, so that the whole electric lead group 1 is repeatedly wound and connected.

The first main elastic rope group 2 comprises an upper weaving rope 2-1-1 and a lower weaving rope 2-1-2, wherein a first wire 1-1, a second wire 1-2, a third wire 1-3 and a fourth wire 1-4 are respectively wound on the upper weaving rope 2-1-1 in a lower-upper-lower-upper sequence, and the winding sequence of the lower weaving rope 2-1-2 is opposite to that of the upper weaving rope 2-1-1, so that the whole electric wire group 1 is repeatedly wound and connected in the mode.

Two elastic telescopic ropes 8 are arranged in the first main elastic rope group 2 and the second main elastic rope group 3, and the elastic telescopic ropes 8 are positioned on the upper side and the lower side of the electric lead group 1 and are coated on the inner surfaces by the first main elastic rope group 2 and the second main elastic rope group 3.

The electric lead group 1 is further provided with an auxiliary elastic rope group 4, the structure of the auxiliary elastic rope group 4 is the same as that of the first main elastic rope group 2, the auxiliary elastic rope group 4 comprises a first auxiliary elastic rope 4-1 and a second auxiliary elastic rope 4-2, the first auxiliary elastic rope 4-1 is arranged on the right side of the second main elastic rope group 3 and close to the bending part of the electric lead group 1, the second auxiliary elastic rope 4-2 is arranged on the left side of the first main elastic rope group 2 and close to the bending part of the electric lead group 1, the first auxiliary elastic rope 4-1 firstly penetrates through the lower parts of four electric wires of the first connecting section 6 to be wound and connected with the connecting weaving belt 5, the lower parts of the first electric wire 1-1 and the second electric wire 1-2 which penetrate through the second connecting section 7 are wound to the upper parts of the third electric wire 1-3 and the fourth electric wire 1-4 and are wound and connected with the connecting weaving belt 5, the whole electric lead group 1 is repeatedly wound and connected, and the connecting mode of the second auxiliary elastic rope 4-2 is staggered with the winding mode of the first auxiliary elastic rope 4-1.

After the technical scheme is adopted, the utility model discloses beneficial effect does: twine the stretch cord after buckling the electric wire, weave the mode through stretch cord and electric wire wound for the electric wire is spacing by the stretch cord when receiving tensile, and pulling of external force can not cause the damage of direct pulling to the electric wire, in the use, especially in the short distance use, very big improvement the safety in utilization of wire rod, improve the life of wire rod.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is another angular view of FIG. 1;

fig. 3 is a schematic diagram of the winding manner of the first main elastic cord group 2 and the electric lead group 1 in the present invention.

Description of reference numerals: the elastic rope comprises an electric lead group 1, a first main elastic rope group 2, a second main elastic rope group 3, an auxiliary elastic rope group 4, a connecting woven belt 5, a first connecting section 6, a second connecting section 7, an elastic telescopic rope 8, a first electric wire 1-1, a second electric wire 1-2, a third electric wire 1-3, a fourth electric wire 1-4, a first main elastic rope 2-1, a second main elastic rope 2-2, a third main elastic rope 3-1, a fourth main elastic rope 3-2, a first auxiliary elastic rope 4-1, a second auxiliary elastic rope 4-2, an upper woven rope 2-1-1 and a lower woven rope 2-1-2.

Detailed Description

Referring to fig. 1 to fig. 3, the technical solution adopted by the present embodiment is: comprises an electric lead group 1, a first main elastic rope group 2, a second main elastic rope group 3 and a connecting woven belt 5, wherein the electric lead group 1 is arranged in an S-shaped structure, two S-shaped straight line sections of the electric lead group 1 are a first connecting section 6 and a second connecting section 7, the connecting woven belt 5 is positioned between the first connecting section 6 and the second connecting section 7, the first main elastic rope group 2 and the second main elastic rope group 3 have the same structure, the first main elastic rope group 2 and the second main elastic rope group 3 are wound on the S-shaped straight line sections of the electric lead group 1 and are wound and connected with the connecting woven belt 5, the electric lead group 1 comprises a first electric wire 1-1, a second electric wire 1-2, a third electric wire 1-3 and a fourth electric wire 1-4, the first electric wire 1-1, the second electric wire 1-2, the third electric wire 1-3 and the fourth electric wire 1-4 are sequentially arranged, the first electric wire 1-1 and the fourth electric wire 1-4 are outer side wires, the second electric wire 1-2 and the third electric wire 1-3 are inner side wires, the S-shaped bent part of the first electric wire 1-1 penetrates through the second electric wire 1-2 and the third electric wire 1-3 and then penetrates through the fourth electric wire 1-4 upwards, the S-shaped bent part of the fourth electric wire 1-4 penetrates through the first electric wire 1-1 and upwards penetrates through the second electric wire 1-2 and the third electric wire 1-3, and the first electric wire 1-1 and the fourth electric wire 1-4 are overlapped with the second electric wire 1-2 and the third electric wire 1-3 in a crossing manner. In this embodiment, the electric wire group 1 is formed by arranging and bending four electric wires in the same direction, the number of the electric wires can be increased or decreased as required, four wires of the electric wire group 1 are arranged by two outer side wires and two inner side wires in an S-shaped structure, the straight sections of the four wires are arranged in sequence, a first electric wire 1-1 at the bent position of the four wires passes through a second electric wire 1-2, a third electric wire 1-3 passes through a fourth electric wire 1-4 below the third electric wire 1-3, a fourth electric wire 1-4 passes through the first electric wire 1-1 below and passes through a second electric wire 1-2 and a third electric wire 1-3 upwards, the two outer side wires and the two inner side wires are overlapped in a crossing manner, so that the electric wire group 1 cannot be loosened, meanwhile, the first main elastic rope group 2 and the second main elastic rope group 3 are connected with the electric wire group 1 in a crossing manner and are woven and wound with the connection weaving braid 5, when the whole wire is stretched, the electric wire group 1 is stretched in an S-shaped structure, is elastically stretched under the action of the elastic ropes and is kept at a certain degree of stretching, so that the wire can be stretched in a good stretching effect and a stretching effect can be achieved.

Further, the first main elastic rope group 2 firstly passes through the second connecting section 7 from the upper direction to the lower direction of the first connecting section 6, the second main elastic rope group 3 passes through the second connecting section 7 from the lower direction of the first connecting section 6, in this way, the whole electric lead group 1 is repeatedly wound and connected, the first main elastic rope group 2 comprises a first main elastic rope 2-1 and a second main elastic rope 2-2, the second main elastic rope group 3 comprises a third main elastic rope 3-1 and a fourth main elastic rope 3-2, and the first main elastic rope group 2 and the second main elastic rope group 3 are arranged according to the sequence of the first main elastic rope 2-1, the third main elastic rope 3-1, the second main elastic rope 2-2 and the fourth main elastic rope 3-2. First main stretch cord group 2, second main stretch cord group 3 structure are the same, therefore total four main stretch cords twine electric wire group 1 and weave, and two sets of main stretch cords are crisscross to be arranged side by side to twine with the opposite direction of positive and negative, and crisscross weaving winding mode makes electric wire group 1 arrange closely, can carry out elastic expansion under stretch cord's winding, can not stretched excessively, plays fine protection effect to the wire rod.

Further, the first main elastic rope group 2 comprises an upper weaving rope 2-1-1 and a lower weaving rope 2-1-2, a first electric wire 1-1, a second electric wire 1-2, a third electric wire 1-3 and a fourth electric wire 1-4 are respectively wound below the upper weaving rope 2-1-1 in an up-down-up sequence, the winding sequence of the lower weaving rope 2-1-2 is opposite to that of the upper weaving rope 2-1-1, the whole electric lead group 1 is repeatedly wound and connected in the mode, two elastic telescopic ropes 8 are arranged in the first main elastic rope group 2 and the second main elastic rope group 3, and the elastic telescopic ropes 8 are positioned on the upper side and the lower side of the electric lead group 1 and are covered on the inner surface by the first main elastic rope group 2 and the second main elastic rope group 3. The elastic rope is formed by alternately weaving two groups of weaving ropes, two elastic telescopic ropes 8 are arranged in the elastic rope, an upper weaving rope 2-1-1 and a lower weaving rope 2-1-2 are sequentially and alternately wound with four electric wires up and down, the cross winding mode limits the position of each electric wire, the elastic telescopic ropes 8 are arranged on the front side and the back side of each electric wire, meanwhile, the elastic telescopic ropes 8 are coated in the weaving ropes, the weaving ropes are stretched in the wire stretching process and are synchronously stretched, the weaving ropes are formed by alternately weaving, the elastic ropes and the weaving ropes are not subjected to extreme stretching in the synchronous stretching process, the elastic ropes are protected, the elastic ropes are stretched in a certain range, namely, the elastic ropes are protected from being damaged due to pulling, the electric wires are protected from being excessively stretched, the service life of the wires is greatly prolonged, part of the electric wires woven in the prior art in the electric wire weaving mode are woven by the weaving wires and rubber in the knitting mode, the small stretching range of the wires is realized only through the ductility of the woven wires, but the rubber wires can be cut after being excessively stressed.

Further, the electric lead group 1 is further provided with an auxiliary elastic rope group 4, the structure of the auxiliary elastic rope group 4 is the same as that of the first main elastic rope group 2, the auxiliary elastic rope group 4 comprises a first auxiliary elastic rope 4-1 and a second auxiliary elastic rope 4-2, the first auxiliary elastic rope 4-1 is arranged on the right side of the second main elastic rope group 3 and close to the bending part of the electric lead group 1, the second auxiliary elastic rope 4-2 is arranged on the left side of the first main elastic rope group 2 and close to the bending part of the electric lead group 1, the first auxiliary elastic rope 4-1 firstly penetrates through the lower part of four electric wires of the first connecting section 6 to be wound and connected with the connecting weaving belt 5, the first electric wire 1-1 and the second electric wire 1-2 penetrating through the second connecting section 7 are wound and then wound to the upper part of the third electric wire 1-3 and the fourth electric wire 1-4 to be wound and connected with the connecting weaving belt 5, the whole electric wire group 1 is repeatedly wound and connected with the second auxiliary elastic rope 4-2 in a winding mode, namely, the second auxiliary elastic rope 4-1 penetrates through the first electric wire and the third electric wire and the fourth electric wire winding section, and the third electric wire are woven and then passes through the third electric wire winding section, and the fourth electric wire and weaving section, and the second electric wire are woven in a staggered mode. Vice stretch cord group 4 is lieing in electric wire group 1 department of buckling, alternately weaves electric wire group 1 in the inboard, plays limiting displacement to the department of buckling to fix the electric wire with the mode of strideing across two wire rods of alternately twining, further fasten electric wire group 1, in the fastening electric wire, can play the effect of strengthening elasticity again, ensure the safety in utilization of wire rod, prevent that the electric wire from being excessively dragged.

The utility model discloses a theory of operation: the whole braided wire material is formed by winding and braiding an electric wire group 1, an elastic rope and a connecting band, wherein the electric wire group 1 comprises four electric wires, the number of the electric wires can be increased or decreased according to needs, four wires of the electric wire group 1 are arranged by two outer side wires and two inner side wires in an S-shaped structure, the straight sections of the four wires are sequentially arranged, a first wire 1-1 at a four-wire bending position passes through a second wire 1-2, a third wire 1-3 below a third wire 1-3 and then passes through a fourth wire 1-4, the fourth wire 1-4 passes through the second wire 1-2 and the third wire 1-3 from the lower part of the first wire 1-1 and passes through the second wire 1-2, the third wire 1-3, the two outer side wires and the two inner side wires are overlapped in a cross mode, so that the electric wire group 1 cannot be loose, meanwhile, the first main elastic rope group 2 and the second main elastic rope group 3 are connected with the electric wire group 1 in a cross winding mode and are wound with the wire material of the connecting braided band 5, when the whole braided wire material is stretched, the electric wire group 1 is in the S-shaped structure, the elastic rope is elastically stretched under the action of the elastic rope, the certain stretching effect can be kept, the wire material can not be stretched, and the wire material can be well protected, and the flexibility can be well.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. A equidirectional folding elastic braided electric lead is characterized in that: it contains electric lead group (1), first main elastic cord group (2), second main elastic cord group (3), connect braid over braid (5), electric lead group (1) arranges for the S-shaped structure, two sections S-shaped straight line sections department of electric lead group (1) are first linkage segment (6) and second linkage segment (7), it is located between first linkage segment (6) and second linkage segment (7) to connect braid (5), first main elastic cord group (2), second main elastic cord group (3) structure is the same, first main elastic cord group (2), second main elastic cord group (3) winding electric lead group (1) S-shaped straight line sections department and with be connected braid (5) winding connection.

2. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: the electric lead group (1) comprises a first electric wire (1-1), a second electric wire (1-2), a third electric wire (1-3) and a fourth electric wire (1-4), wherein the first electric wire (1-1), the second electric wire (1-2), the third electric wire (1-3) and the fourth electric wire (1-4) are sequentially arranged, the first electric wire (1-1) and the fourth electric wire (1-4) are outer side lines, and the second electric wire (1-2) and the third electric wire (1-3) are inner side lines.

3. A co-folded, resilient, braided electrical conductor according to claim 2, wherein: the S-shaped bent part of the first electric wire (1-1) penetrates through the second electric wire (1-2), the lower part of the third electric wire (1-3) penetrates through the fourth electric wire (1-4) upwards, the S-shaped bent part of the fourth electric wire (1-4) penetrates through the lower part of the first electric wire (1-1) and penetrates through the second electric wire (1-2) and the third electric wire (1-3) upwards, and the first electric wire (1-1), the fourth electric wire (1-4), the second electric wire (1-2) and the third electric wire (1-3) are overlapped in a crossed mode.

4. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: the first main elastic rope group (2) comprises a first main elastic rope (2-1) and a second main elastic rope (2-2), the second main elastic rope group (3) comprises a third main elastic rope (3-1) and a fourth main elastic rope (3-2), and the first main elastic rope group (2) and the second main elastic rope group (3) are arranged in sequence of the first main elastic rope (2-1), the third main elastic rope (3-1), the second main elastic rope (2-2) and the fourth main elastic rope (3-2).

5. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: the first main elastic rope group (2) firstly passes through the second connecting section (7) downwards from the upper part of the first connecting section (6), and the second main elastic rope group (3) passes through the second connecting section (7) upwards from the lower part of the first connecting section (6), so that the whole electric lead group (1) is repeatedly wound and connected.

6. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: the first main elastic rope group (2) comprises an upper weaving rope (2-1-1) and a lower weaving rope (2-1-2), the upper weaving rope (2-1-1) is wound with a first wire (1-1), a second wire (1-2), a third wire (1-3) and a fourth wire (1-4) in a lower-upper-lower-upper sequence, the winding sequence of the lower weaving rope (2-1-2) is opposite to that of the upper weaving rope (2-1-1), and the whole electric wire group (1) is repeatedly wound and connected in the mode.

7. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: two elastic telescopic ropes (8) are arranged in the first main elastic rope group (2) and the second main elastic rope group (3), and the elastic telescopic ropes (8) are located on the upper side and the lower side of the electric lead group (1) and are coated on the inner surfaces of the first main elastic rope group (2) and the second main elastic rope group (3).

8. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: the electric wire group (1) is further provided with an auxiliary elastic rope group (4), the structure of the auxiliary elastic rope group (4) is the same as that of the first main elastic rope group (2), the auxiliary elastic rope group (4) comprises a first auxiliary elastic rope (4-1) and a second auxiliary elastic rope (4-2), the first auxiliary elastic rope (4-1) is arranged on the right side of the second main elastic rope group (3) and close to the bending part of the electric wire group (1), the second auxiliary elastic rope (4-2) is arranged on the left side of the first main elastic rope group (2) and close to the bending part of the electric wire group (1), the first auxiliary elastic rope (4-1) firstly penetrates through the lower parts of four electric wires of the first connecting section (6) to be wound and connected with the connecting woven belt (5), the first electric wire (1-1) penetrating through the second connecting section (7) and the lower parts of the second electric wire (1-2) are wound to the third electric wire (1-3) and the upper parts of the fourth electric wire (1-4), the auxiliary elastic rope is wound and connected with the woven belt (5), and the second auxiliary elastic rope is connected with the electric wire group in a staggered winding mode (1-4).

9. A co-folded, resilient, braided electrical conductor according to claim 1, wherein: the electric lead group (1) comprises a first electric wire (1-1), a second electric wire (1-2), a third electric wire (1-3) and a fourth electric wire (1-4), wherein the first electric wire (1-1) and the second electric wire (1-2) are arranged in a group according to an S-shaped structure, the third electric wire (1-3) and the fourth electric wire (1-4) are arranged in a group according to an S-shaped structure, and the directions of the first electric wire (1-1) and the second electric wire (1-2) are opposite to the directions of the third electric wire (1-3) and the fourth electric wire (1-4) and are arranged in a crossed manner.

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